I was sent a link to this website by the author, who appears to have created an Arduino ECU for spark control. Although the details are a little sparse, It appears that he has developed a lot of the required hardware himself. It looks like the main controller is an Arduino Nano and utilises Manifold Absolute Pressure (MAP) and a knock sensor to determine the ignition timing on a Peugeot 205 Tu9 45Ch. It would appear that the ECU has been developed over a number of revisions and has been in operation for over a year.
I’ve made another video which talks through the way that the closed loop ignition control system works.
It may help to watch the video explaining the whole system first here: http://scottsnowden.co.uk/?p=337
I have been busy over the last few weeks with various things, but have now completed most of the practical work on my project and am now at the stage of writing up the report/dissertation. I have successfully managed to achieve closed loop ignition timing control by using the Stellaris Launchpad development board to directly interface with the optical encoder on the engine and the pressure sensor charge amplifier (this replaces the AVL IndiSet 620 in my system).
So one of the aims of my project is to use in-cylinder pressure as a means of providing a measurement of what is going on with the engine, and hence use this to in some way control my ignition and fuelling.
Success! I have started and run the engine on my own electronic ignition. The problem was in the end quite simple, it turns out that the missing tooth wheel on the crank was aligned differently to what I expected. I thought that the missing tooth occurred 240 degrees after TDC, but in fact it appears to be aligned almost exactly at TDC. This meant that my spark was happening around Bottom Dead Centre, which is no use at all!
From my couple of brief tests, I’ve identified a few problems which are preventing the engine from starting up and running for more than a few seconds.
- The ignition timing at very low speeds < 500 RPM is very erratic, and not at all on time.
- Under heavy acceleration the ignition timing is erratic, for example when pull starting the engine
- There are some occasional misfires
- The ignition timing is generally not massively stable – sometimes varying as much as 10 degrees(!) Continue reading
I have now implemented more accurate ignition timing control which is based on degrees before top dead centre rather than a fixed time period.
I’ve also implemented a simple fuel map with the ability to store new values, display the map and save the map over serial from the Arduino.